Isaac Kurtzer

Affiliations: 
Queen's University, Kingston, ON, Canada 
Area:
Motor Control, Upper-Limb Refexes
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"Isaac Kurtzer"
Mean distance: 14.69 (cluster 29)
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Parents

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Paul A. DiZio grad student Brandeis
James R. Lackner grad student Brandeis
Stephen H. Scott post-doc Queens University

Children

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Collaborators

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J. Andrew Pruszynski collaborator Queens University
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Publications

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Crevecoeur F, Kurtzer IL. (2018) Long-latency reflexes for inter-effector coordination reflect a continuous state-feedback controller. Journal of Neurophysiology
Kurtzer I, Bouyer LJ, Bouffard J, et al. (2018) Variable impact of tizanidine on the medium latency reflex of upper and lower limbs. Experimental Brain Research
Kurtzer IL, Meriggi J, Parikh N, et al. (2016) Long-latency reflexes of elbow and shoulder muscles suggest reciprocal excitation of the flexors and reciprocal excitation of the extensors. Journal of Neurophysiology. jn.00929.2015
Nashed JY, Kurtzer IL, Scott SH. (2015) Context-dependent inhibition of unloaded muscles during the long-latency epoch. Journal of Neurophysiology. 113: 192-202
Kurtzer IL. (2014) Long-latency reflexes account for limb biomechanics through several supraspinal pathways. Frontiers in Integrative Neuroscience. 8: 99
Kurtzer I, Crevecoeur F, Scott SH. (2014) Fast feedback control involves two independent processes utilizing knowledge of limb dynamics. Journal of Neurophysiology. 111: 1631-45
Crevecoeur F, Kurtzer I, Bourke T, et al. (2013) Feedback responses rapidly scale with the urgency to correct for external perturbations. Journal of Neurophysiology. 110: 1323-32
Kurtzer I, Trautman P, Rasquinha RJ, et al. (2013) Cerebellar damage diminishes long-latency responses to multijoint perturbations. Journal of Neurophysiology. 109: 2228-41
Kistemaker DA, Van Soest AJ, Wong JD, et al. (2013) Control of position and movement is simplified by combined muscle spindle and Golgi tendon organ feedback. Journal of Neurophysiology. 109: 1126-39
Crevecoeur F, Kurtzer I, Scott SH. (2012) Fast corrective responses are evoked by perturbations approaching the natural variability of posture and movement tasks. Journal of Neurophysiology. 107: 2821-32
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